Method and Device for Analysis of Shape Optimization

1. A method for analysis of shape optimization comprising optimizing a part of a structural body model including a movable portion, by combining a multi-body dynamics analysis and an optimization analysis and using two-dimensional elements or three-dimensional elements, the optimizing includes: a design space setting step of setting, as a design space, a portion to be optimized in the movable portion; an optimization block model generating step of generating, in the set design space, an optimization block model formed of three-dimensional elements and is to be subjected to analysis processing of optimization; a connection processing step of connecting the generated optimization block model with the structural body model including the movable portion; a material property setting step of setting a material property for the optimization block model; an optimization analysis condition setting step of setting an optimization analysis condition to determine an optimum shape of the optimization block model; a multi-body dynamics analysis condition setting step of setting a multi-body dynamics analysis condition including a centrifugal force, a reaction force and an inertial force to perform multi-body dynamics analysis on the structural body model including the movable portion with which the optimization block model has been connected; an optimum shape analyzing step of executing, based on the set multi-body dynamics analysis condition, the multi-body dynamics analysis on the structural body model including the movable portion incorporating the optimization block model; executing, based on the set optimization analysis condition, the optimization analysis; and finding the optimum shape of the optimization block model, and utilizing the analysis of shape optimization for configuring optimization of the movable portion of the structural body configured of a thin sheet; and displaying the structural body model including the moveable portion based on the optimum shape analyzing step; wherein the optimization block model is generated by: setting nodes in a portion connected with the two-dimensional elements or three-dimensional elements forming the structural body model; and stacking the three-dimensional elements along a plane including the nodes set in the connected portion.

2. The method for analysis of shape optimization according to claim 1 , wherein, in the multi-body dynamics analysis condition setting step, a load or displacement that is obtained as a result of performing multi-body dynamics analysis on the structural body model beforehand is set.

3. The method for analysis of shape optimization according to claim 1 , wherein, in the material property setting step, at a time a part where the optimization block model has been connected in the structural body model is formed of two-dimensional elements, a Young's modulus in the three-dimensional elements of the optimization block model is set lower than a Young's modulus in the two-dimensional elements.

4. The method for analysis of shape optimization according to claim 1 , wherein the three-dimensional elements forming the optimization block model are each formed of a three-dimensional element that is a polyhedron having five to eight sides and that has at least one pair of sides parallel to each other.

5. The method for analysis of shape optimization according to claim 1 , wherein the optimization block model is formed of a plurality of block bodies formed of three-dimensional elements, and is formed by connecting the plurality of block bodies by using a rigid body element, a beam element, or a two-dimensional element.

6. The method for analysis of shape optimization according to claim 1 , wherein discretization is performed with an optimization parameter in optimization calculation by numerical analysis.

7. A device for analysis of shape optimization, for optimizing a part of a structural body model having a movable portion, by combining a multi-body dynamics analysis and an optimization analysis and using two-dimensional elements or three-dimensional elements, the device comprising a display device and a computer with a central processing unit and memory that: sets, as a design space, a portion to be optimized in the movable portion; generates, in the set design space, an optimization block model formed of three-dimensional elements and is subjected to analysis processing of optimization; connects the generated optimization block model with the structural body model including the movable portion; sets a material property for the optimization block model; sets an optimization analysis condition to determine an optimum shape of the optimization block model; sets a multi-body dynamics analysis condition including a centrifugal force, a reaction force and an inertial force to perform multi-body dynamics analysis on the structural body model including the movable portion with which the optimization block model has been connected; executes, based on the set multi-body dynamics analysis condition, the multi-body dynamics analysis on the structural body model including the movable portion incorporating the optimization block model; executes, based on the set optimization analysis condition, the optimization analysis; and finds the optimum shape of the optimization block model, and utilizes the analysis of shape optimization for configuring optimization of the movable portion of the structural body configured of a thin sheet; wherein the computer generates the optimization block model by: setting nodes in a portion connected with the two-dimensional elements or three-dimensional elements forming the structural body model; and stacking the three-dimensional elements along a plane including the nodes set in the connected portion, and the display device displays the structural body model including the moveable portion based on the optimum shape.

8. The device for analysis of shape optimization according to claim 7 , wherein the computer sets a load or displacement obtained as a result of performing multi-body dynamics analysis on the structural body model beforehand.

9. The device for analysis of shape optimization according to claim 7 , wherein, at a time a part where the optimization block model has been connected in the structural body model is formed of two-dimensional elements, the computer sets a Young's modulus in the three-dimensional elements of the optimization block model lower than a Young's modulus in the two-dimensional elements.

10. The device for analysis of shape optimization according to claim 7 , wherein the three-dimensional elements forming the optimization block model are each formed of a three-dimensional element that is a polyhedron having five to eight sides and that has at least one pair of sides parallel to each other.

11. The device for analysis of shape optimization according to claim 7 , wherein the computer forms the optimization block model with a plurality of blocks formed of three-dimensional elements, and generates the optimization block model by connecting the plurality of blocks by using a rigid body element, a beam element, or a two-dimensional element.

12. The device for analysis of shape optimization according to claim 7 , wherein the computer performs optimum shape analysis by discretization with an optimization parameter in optimization calculation by numerical analysis.

13. The device for analysis of shape optimization according to claim 7 , wherein the computer performs optimum shape analysis by optimization calculation by topology optimization.